ESP8266

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Hackaday Links: September 6, 2015

September 6, 2015 by 10 Comments

The MeArm is a cool little robot arm that can be controlled with just about any microcontroller. There’s a new version of it up on Thingiverse.

Here’s something to get kids interested in robotics: the GoBox is a robot kit with multiple ‘missions’ delivered monthly. The robot is based on the Raspberry Pi and Scratch – the Apple II and BASIC of today, I guess.

What happens when a popular electronics YouTuber completely debunks a product? Hundreds of dislikes appear on the YouTube videos he made. Hundreds of dislikes from Vietnam appeared on [Dave Jones]’ videos debunking the Batterizer. In fact, more people from Vietnam disliked the video than viewed it. Yes, weird YouTube dislike farms like this exist, and if you can do it on the Internet, you can also pay people to do it on the Internet.

The ESP8266 is slowly becoming a board that’s as easy to use as an Arduino. Now there’s a board that turns it into an Arduino.

The Vintage Computer Festival Midwest was last week,  and [chris537a] shot a video of all the cool stuff. [vikram4819] put an album up on imgur. Yes, someone was selling a Sparcbook for $300. I’m holding out for a PowerPC ThinkPad, though…

Washington DC area hackers, don’t forget to RSVP for the Hackaday Meetup on Saturday. Bring a hack to show off and spend the evening socializing with the Hackaday community. Check out the announcement post for more info.

ESP8266 Web Server Farm

September 5, 2015 by 15 Comments

There seems to be a hacker maxim that whatever gadget you are working with, it would be better to have several of them running together. That might explain the ESP8266 web server farm that [Eldon Brown] has built. Yup, a web server farm made from three of everyone’s favorite WiFi dongle, the humble ESP8266.

Eldon’s server farm is currently serving web pages here, running on three ESP8266 boards. Or it was before this posting reduced it to a smoking ruin (screenshot below just in case). Each module is running a dynamic web page and some clever programming he came up with that makes transferring data over these cheap devices quicker.

His page isn’t anything too fancy but it is impressive considering it is running on about $30 worth of hardware, including the breadboard it is wired into. The page includes dynamically-generated graphics and some back-end stuff. I don’t think that it will replace any LAMP servers anytime soon (the ESP8266 took about 2.6 seconds to generate the page below), but it is an impressive hack. [Eldon] has made the full code of the web server that is running the pages available. So, lets add web server farm to the list of things that this neat little device can handle, next to plant weigher, Bitcoin price tracker, MP3 player and many more

Thanks to [PuceBaboon] for the tip!

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Basically, It’s An ESP8266

August 29, 2015 by 26 Comments

Before the Arduino, there was the Parallax Basic Stamp. It was an easy-to-use PIC chip on a PCB that you programmed in BASIC — a story of those humble beginnings was published earlier this week. Before that, even, legions of small computers from TRS-80s to Commodore 64s and even Altairs were commanded primarily by the BASIC language. BASIC was easy to run on a small machine and very simple to learn. Old fashioned BASICs are difficult to use to write huge systems, but a lot of small computers aren’t going to run very large programs anyway.

The ESP8266 is more than a just a WiFi peripheral for a microcontroller. It is its own little computer in its own right. While it is common to run the “AT” firmware, Lua, or program the device yourself, you can now load the beast with a version of BASIC.

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ESP8266 In Commercial Products

August 25, 2015 by 26 Comments

The hobbyist electronics market is still tiny, and even though random companies are coming out with some very interesting hardware, these parts and components aren’t exactly meant for us. The ESP8266 WiFi module is a slight deviation from this trend, with hundreds of different ESP dev boards floating around, and weirdos buying them by the bag.

[4ndreas] finally found the ESP8266 in a product; it’s not a very noteworthy observation until you realize how much work has gone into the development of open source toolchains for the ESP.

[4ndreas] found an RGB LED strip on Ali Express that could be controlled by WiFi. Inside, he found everyone’s favorite WiFi module, and by shorting two pins, he started up the controller in bootloader mode.

Because of the massive amount of open source development surrounding the ESP8266, there are a host of tools that can be used to program this cheap LED controller. [4ndreas] took a swing at writing his own firmware for the controller and came up with this project.

It’s not a killer project, but it does demonstrate the power of open source toolchains for cheap WiFi modules. This is only the first product found with an ESP8266 inside, but there are undoubtedly others out there just waiting to be taken apart and controlled in more advanced ways.

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Make Your Own Remote Control LED Light

August 23, 2015 by 31 Comments

Want to control the colors in your home? Sure, you could just buy a Philips Hue bulb, but where’s the hacking fun in that? [Dario] agrees: he has written a tutorial on building an Arduino-controlled RGB light system that plugs into a standard light socket.

[Dario] is using a bulb from Automethion in Italy, an Arduino, and an ESP8266 shield that sends signals to the bulb. The Arduino and shield are running the Souliss framework that provides smart home features and runs on a number of platforms, so it is a good open platform for creating your own smart home apps, and would be easy to expand. We have also seen a few other projects that use the ESP8266 to control an RGB strip, but this is the first one that uses a bulb that plugs into a standard light socket.

At the moment, Automethion is the only company selling this light, but I hope that others will sell similar products soon.

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Hello RAMPS, Meet ESP8266

August 20, 2015 by 17 Comments

The proliferation of  DIY 3D printers has been helped in large measure by the awesome open-source RepRap project. A major part of this project is the RAMPS board – a single control board / shield to which all of the other parts of the printer can be easily hooked up. A USB connection to a computer is the usual link of choice, unless the RAMPS board has the SD-Card option to allow the 3D printer to operate untethered. [Chetan Patil] from CreatorBot built a breakout board to help attach either the ESP8266 WiFi or the HC-05 Bluetooth module to the Aux-1 header on the RAMPS board. This lets him stream G-code to the printer and allow remote control and monitoring.

While the cheap ESP8266 modules are the current flavor of the season with Hackers, getting them to work can be quite a hair tearing exercise. So [Chetan] did some hacking to figure out the tool chain for developing on the ESP module and found that LUA API from NodeMcu would be a good start. The breakout board is nothing more than a few headers for the ESP8266, the HC-05 and the Aux-1 connections, with a few resistors, a switch to set boot loader mode and a 3.3V regulator. If you’re new to the ESP8266, use this quick, handy, guide by [Peter Jennings] to get started with the NodeMCU and Lualoader. [Chetan]’s code for flashing on the ESP8266, along with the Eagle board design files are available via his Github repo. Just flash the code to the ESP8266 and you’re ready to go.

One gotcha to be aware of is to plug in the ESP module after the printer has booted up. Otherwise the initial communication from the ESP module causes the printer to lock up. We are sure this is something that can be taken care of with an improved breakout board design. Maybe use a digital signal from the Arduino Mega on the RAMPS board to keep the ESP module disabled for a while during start up, perhaps? The video after the break gives a short overview of the hack.

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An Internet Speedometer With A Dekatron

July 30, 2015 by 13 Comments

[Sprite_tm], like most of us, is fascinated with the earlier ways of counting and controlling electrons. At a hacker convention, he found an old Dekatron tube hooked up to a simple spinner circuit. The prescription for this neon infatuation was to build something with a Dekatron, but making another spinner circuit would be a shame. Instead, he decided to do something useful and ended up building an Internet Speedometer with this vintage display tube.

Like all antique tubes, the Dekatron requires about 400V to glow. After a bit of Googling, [Sprite] found a project that drives a Dekatron with an AVR with the help of a boost converter. Borrowing the idea of controlling a boost converter with a microcontroller, [Sprite] built a circuit with the Internet’s favorite Internet of Things thing – the ESP8266 – that requires only a 12 volt wall wart and a handful of parts.

Controlling the rotating glow of a Dekatron is only half of the build; this device is an Internet speedometer, too. To read out his Internet speed, [Sprite] is using a managed switch that allows SNMP to read the number of incoming and outgoing octets on a network interface. By writing a simple SNMP client for the ESP8266, the device can read how clogged the Intertubes are, both incoming and outgoing.

With an acrylic case fresh out of the laser cutter and a remarkably good job at bending acrylic with a heat gun, [Sprite] has a tiny device that tells him how much Internet he’s currently using. He has a video of it running a speedtest, you can check that video out below.

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